Alteration of Drug Metabolism During Cholestasis in Man*

Abstract

The morphological and functional alterations of the smooth endoplasmic reticulum of the liver cell related to biliary stasis have brought attention to drug biotransformation during cholestasis. The metabolism of meprobamate, pentobarbital and tolbutamide was assessed in subjects with intrahepatic recurrent cholestasis (3), cholestatic hepatitis (6), extrahepatic biliary obstruction (7) and normal controls (16). In the patients with recurrent intrahepatic cholestasis no differences in drug metabolism were noted as compared to the control group. In cholestatic hepatitis the plasma half‐lives of meprobamate (828 ± 422 min.) and pentobarbital (39 ±6. 5 hours) were significantly longer than in controls (444 ± 37 and 25. 4 ± 1. 1 respectively). Tolbutamide plasma half‐life appeared unchanged. The most striking variations were observed in the patients with extrahepatic biliary obstruction. In such cases while meprobamate half‐life was unchanged, pentobarbital half‐life was significantly prolonged (31. 2 + 2. 5) and the in vitro metabolism of the drug, using liver preparations, was decreased to less than 50 % of the control value. In contrast the metabolism of tolbutamide was accelerated as evidenced by a significant decrease of plasma half‐life (165 ± 48 min. versus 384 ± 76 of the controls) and an enhanced urinary excretion of the drug's metabolites. However the metabolism of tolbutamide in vitro did not show any difference between normal and cholestatic liver. Whatever the mechanism of the peculiar behaviour of tolbutamide in extrahepatic biliary obstruction it seems to be related to the increased bile salt concentration during cholestasis. In fact the low values of plasma half‐life increase significantly either relieving the biliary obstruction or producing a bile salt depletion with cholestyramine. Preliminary results in vitro suggest the bile salt could displace tolbutamide from albumin binding thus increasing the amount of free drug available for biotransformation by the liver. In conclusion cholestasis may affect drug metabolism depending on the degree of biliary stasis, liver cell injury and the type of drug tested. The mechanism could be that of an impaired biotransformation in the smooth endoplasmic reticulum or could involve extrahepatic factors.